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In this post, Volume Tiled Forward Shading rendering is described. Volume Tiled Forward Shading is based on Tiled and Clustered Forward Shading described by Ola Olsson et. al. [13][20]. Similar to Clustered Shading, Volume Tiled Forward Shading builds a 3D grid of volume tiles (clusters) and assigns the lights in the scene to the volumes tiles. Only the lights that are intersecting with the volume tile for the current pixel need to be considered during shading. By sorting the lights into volume tiles, the performance of the shading stage can be greatly improved. By building a Bounding Volume Hierarchy (BVH) over the lights in the scene, the performance of the light assignment to tiles phase can also be improved. The Volume Tiled Forward Shading technique combined with the BVH optimization allows for millions of light sources to be active in the scene.

In this article, I will introduce the reader to DirectX 11. We will create a simple demo application that can be used to create more complex DirectX examples and demos. After reading this article, you should be able to create a DirectX application and render geometry using a simple vertex shader and pixel shader.

In this article I will demonstrate how to apply 2D textures to your 3D models. I will also show how to define lights that are used to illuminate the objects in your scene.
I assume that the reader has a basic knowledge of C++ and how to create and compile C++ programs. If you have never created an OpenGL program, then I suggest that you read my previous article titled [Introduction to OpenGL and GLSL] before continuing with this article.

In this article I will introduce the reader to the OpenGL rendering API (application programming interface). I will also introduce GLSL (OpenGL Shading Language). We will create a simple vertex shader and fragment shader that can be used to render very basic 3D primitives. By the end of this article you will know how to create a simple OpenGL application and render 3D objects using shaders.

In this article I will introduce the reader to Graphical User Interface (GUI) scripting in Unity. Unity has a very powerful GUI scripting Application Programming Interface (API). It allows you to quickly create simple menus and GUIs using scripts.

In this article, I will briefly describe how to setup a Unity project together with a Version Control System (VCS). I will show you how you can setup a Unity project to work with Subversion (SVN) but the method to use Unity with other version control systems should be similar.

In this article I will introduce the networking functionality included in Unity. I will build a simple authorative server solution, introduce the NetworkView component, and show you how RPCs can be used. The screenshots are from Unity 3.5, but the solution works for Unity 4.0 as well.